Basically why is the following invalid in C#? I can find plenty of good uses for it and in fact can fix it by creating my own nullable struct class but why and how does the C# specification (and hence the compiler) prevent it?

The below is a partial example of what I'm talking about.

struct MyNullable<T> where T : struct
    public T Value;
    public bool HasValue;

    // Need to overide equals, as well as provide static implicit/explit cast operators

class Program
    static void Main(string[] args)
        // Compiles fine and works as expected
        MyNullable<Double> NullableDoubleTest;
        NullableDoubleTest.Value = 63.0;

        // Also compiles fine and works as expected
        MyNullable<MyNullable<Double>> NullableNullableTest;
        NullableNullableTest.Value.Value = 63.0;

        // Fails to compile...despite Nullable being a struct
        // Error: The type 'double?' must be a non-nullable value type in order to use it as parameter 'T' in the generic type or method 'ConsoleApplication1.MyNullable<T>'
        MyNullable<Nullable<Double>> MyNullableSuperStruct;
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    Are you asking why you cannot create a nullable nullable? Perhaps if you tried phrasing the question in words rather than merely code, you would understand why this does not make much sense. – Cody Gray Apr 17 '12 at 18:07
  • @L.B It's similar to a pointer to a pointer to an int. The double pointer can be null, the pointer can be null, or they can both have a vale. Edit: of course it's not allowed, so it's a moot point. – Servy Apr 17 '12 at 18:08
  • I tried to compile your code (in LINQPad) and I get The type 'int?' must be a non-nullable value type in order to use it as parameter 'T' in the generic type or method 'UserQuery.MyNullable<T>'. Is this different from when you try to compile it? – M.Babcock Apr 17 '12 at 18:11
  • @Cody: I don't think this has any relation to that question. This one seems to be about the "magic" constraint on Nullable<T> that requires the argument to be a non-nullable value type. – Ben Voigt Apr 17 '12 at 18:12
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    Nullable<double?> doesn't work either. It's because of the weirdo morphing behavior, a boxing conversion turns the nullable struct into a System.Nullable class object. Which doesn't meet your contraint. Also the reason you can't use nullable as a constraint. – Hans Passant Apr 17 '12 at 18:23

It is a struct. It just doesn't satisfy the value type generic type parameter constraint. From 10.1.5 of the language specification:

The value type constraint specifies that a type argument used for the type parameter must be a non-nullable value type. All non-nullable struct types, enum types, and type parameters having the value type constraint satisfy this constraint. Note that although classified as a value type, a nullable type (§4.1.10) does not satisfy the value type constraint.

So, the where T : struct doesn't mean what you think it means.

Basically why is the following invalid in C#?

Because where T : struct can only be satisfied by T that are non-nullable value types. Nullable<TNonNullableValueType> does not satisfy this constraint.

why and how does the compiler prevent it?

Why? To be consistent with the specification. How? By performing syntactic and semantic analysis and determining that you've supplied a generic type parameter T that doesn't satisfy the generic type constraint where T : struct.

[I] can fix it by creating my own nullable struct class but

No, you're version doesn't fix it. It's basically exactly the same as Nullable<T> except you don't get special handling by the compiler, and you're going to cause some boxing that the compiler's implementation won't box.

I can find plenty of good uses for it

Really? Such as? Keep in mind, the basic idea of Nullable<T> is to have a storage location that can contain T or can represent "the value is missing." What's the point of nesting this? That is, what's the point of Nullable<Nullable<T>>? It doesn't even make conceptual sense. That might be why it's prohibited, but I'm merely speculating (Eric Lippert has confirmed that this speculation is correct). For example, what is an int??? It represents a storage location that represents the value is missing or is an int?, which is itself a storage location that represents the value is missing or is an int? What's the use?

  • I think the OP's real question is "Why does 10.1.5 include Note that although classified as a value type, a nullable type (§4.1.10) does not satisfy the value type constraint."? – Gabe Apr 17 '12 at 18:17
  • @Gabe I also don't agree with this. Jason's answer is perfect. 10.1.5 tells the OP exactly why his code doesn't work. – Andrew T Finnell Apr 17 '12 at 18:18
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    Your speculation is correct. In the original design of the feature, int??, int??? and so on were perfectly legal, and in fact there is still a small amount of code in the compiler left over from the original prototype to deal with precisely those situations. Of course that code is now only exercised in error-recovery codepaths. – Eric Lippert Apr 17 '12 at 18:47
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    @NtscCobalt this blog post explains the decision process very nicely: blogs.msdn.com/b/somasegar/archive/2005/08/11/450640.aspx – phoog Apr 17 '12 at 19:24
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    @NtscCobalt: It was a controversial decision that caused a lot of debate back in the day; as soma notes in the article phoog links to, the final decision was made quite late in the ship cycle for .NET v2.0. The moral of the story is of course design nullability and non-nullability into your type system from day one rather than trying to bolt it on later. Next time you design a type system, keep that in mind. – Eric Lippert Apr 17 '12 at 19:33

One reason for the struct constraint's diallowing nullables is that we want to be able to use T? in generic methods. If struct permitted nullable value types, the compiler would have to prohibit T?.

The nullable type must have special handling in the compiler in other cases as well:

  • The null keyword must be implicitly convertible to a nullable type; this is impossible with a value type.
  • Nullable value types can be compared with the null keyword; with non-nullable value types, this comparison always returns false.
  • Nullable value types work with the ?? operator; non-nullables do not.
  • If Nullable's T type argument constraint truly was struct and Nullable truly derived from struct then T? would just wrap a Nullable around whatever T was. So Nullable<T?> would be Nullable<Nullable<T>> – NtscCobalt Apr 17 '12 at 18:24
  • @NtscCobalt: And Nullable<Nullable<T>> is a useless concept. – jason Apr 17 '12 at 18:29
  • @Jason, perhaps but using Nullable<T> for a type argument requiring T be a struct makes sense as Nullable<T> is defined as struct Nullable<T> : where T struct { T Value; bool HasValue;} so logically it may be confusing but there should be no reason for the compiler to prevent it (other than specification). – NtscCobalt Apr 17 '12 at 18:36
  • @NtscCobalt: Suppose it were legal. What about this: Nullable<int> w = null; Nullable<Nullable<int>> x = w; Then x.HasValue evaluates to true but x.Value.Value and x.Value.GetType() throw. Gross. The concept just doesn't make any sense. So x represents an instance of Nullable<int> that is not missing, but it is.... – jason Apr 17 '12 at 18:40
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    @Jason: The problem, fundamentally, is that someone decided that calling Object.Equals on (null) and (a Nullable<T> whose HasValue field is false) should return true. Lose that silliness, and calling GetType() on a Nullable<int> would return a Nullable<int>, whether it has a value or not. To allow for passing to code which will expect either a boxed T or a null, the Nullable<T> type could include an AsObjectOrNull property which would return either Value cast to Object or else null. No problem with nested Nullable<Nullable<T>>; that property would... – supercat Apr 17 '12 at 22:54

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